h1 series inverter - conon motor
TRANSCRIPT
(consult factory before using) (consult factory before using) (consult factory before using)
NO.2 Main circuit and function card
1.1 Technical Features
1.3 H1 series specifications and models
NO.4 Keypad description
Series (H1 series)
customized model
S/T:single phase/ three phase 2/4:220/415V
Power:kW
B: built-in brake unit X: without brake unit
T: with STO X:without STO
H1 00 S2 0007 B T 0
0:domestic 1~9:overseas
1 2 H1 nameplate.
ALM
M
REV
REM
RUN
H10001
ENTER
MPRG
RUNRESET
STOP
N
H1 series structure dimensions
W(Width) H(Height) D(Depth)Dimensions mm( )
FrameworkA B d
4.1 Keypad appearance and keypad explanation
Figure 3 1 H1 series keypad -
D
H
WA
B
d
Item Structure Function description
PRG
RESETSTOP
1
RUN
2
3
ENTER
5
6
7
9
10
11 M
N4
8
In the mode of program, work as value change
key; otherwise, UP/DOWN key, refer to
parameter P1.63, P2.03, P2.04
Display
Program/exit
Status diaplay interface work as status switch key;other interface work as left shift key
Reserved key
RUN
Potentiometer: refer to parameter P1.63
Enter
STOP/RESET
Customization key
Indicator light Function description
RUN
REV
REM
ALM
M
Status
bright/flash
bright
bright
bright
bright
Running/deceleration
reverse
Remote operation
Fault indication
Customization indication,
default alarm indication
4.2 Indicator light description 4 3 Display item description.
Display code Item description
output frequency
output current
output voltage
DC bus voltage
display value 1(P10.98)
display value 2(P10 99) .
current alarm
current fault
NO.5 Function Parameter Table·
1:parameter initialization, initialize parametersexcept PI.XX, in normal condition, use mode 1initialization;2. initialize all parameters
0:keypad
1:multi-speed
2:AI1
3:AI2
5:communication
0.000Hz~1000.000Hzinterpretation:motor operation frequency upper limit
0~11111111
units:S1
tens:S2 hundreds’
digit:S3
thousands'digit:S4
...
* P0.15:multi-speed source,select to corresponding external
terminal, multi-speed refer to P0.16-P0.23.
* eg:selectS2、S3、S4 as valid external terminal to control
multi-speed
set P0.15=1110, detailed 8 segment corresponding relationship as
above table
﹣1000.000%~1000.000%
function: multi-speed setting, corresponding to P0.13
maximum setting percentage
﹣1000.000~1000.000function: set jog frequency, jog command refer to P0.33
Function code
Function Description(setting range) Factory default
Parameter operation P0.09
Setting(frequency) reference F1P0.10
maximum setting valueP0.13
P0.24
0:invalid1:keypad2:communication3:S14:S25:S36:S4
...function: select command source(select keypad as command source, then reverse start command, reverse command, jog command, free stop command, safe stop command, pause command all from multi-function key of keypad)
P0.12
P0.11
P0.25
Setting(frequency) reference F2
setting relation selection
motor output frequency upper limitP0.14
multi-speed sourceP0.15
multi-speed 4P0.20
multi-speed 5P0.21
multi-speed 6P0.22
multi-speed 7P0.23
acceleration time
deceleration time
P0.26 Jog frequency
P0.30 start command source
P0.32 reverse command source
P0.33 Jog command source
P0.31 reverse start command source
0
0
0
0
50.000
55.000Hz
0.000%
0.000%
0.000%
0.000%
S*
10.000%
1
0
0
1
01235
P0.10
keypad
multi-speed
AI1AI2communication
01235
P0.11
F1setting value 1
P0.12
P10.90
F2 setting
value 2
P10.91
F1F2F1+F2F1-F2F1*F2/100
01234
maximum value(F1,F2)
minimum value(F1,F2)
average value(F1,F2)
PID(F1,F2)
5
6
78
acceleration time deceleration time
time
output frequency
P0.13
0
Items Description
inp
ut
Ratedvoltage/frequency
Allowed voltage
ou
tpu
t
Voltage
Frequency
Overload capacity
co
ntro
l pe
rform
an
ce
Operation
function
3ph: 415V~440V , 50Hz/60Hz1ph: 200V~240V , 50Hz/60Hz
3ph: 320V~460V ; 1ph: 180V~260V;voltage Imbalance rate: <3% ; frequency: ±5%
0~rated input voltage
0Hz~1000Hz
150% rated current 60s,180% rated current 2s
Control mode V/F、SVC
Modulation Mode SVPMW
Motor type asynchronous motor, synchronour motor,
Start torque 1Hz/150%
Speed range 1:100(SVC)
Frequencyaccuracy
digital setting maximum frequency 0 0 : ± . 1%;nolog setting aximum frequencya : m ±1%;
Frequencyresolution
digital setting: 0.1Hz;
anolog setting: maximum frequency±1%;Acceleration/
deceleration curve line curve/ S-
Rapid current limit limit current rapidly within the current protection value, to ensure the safety of the equipment
None-stop when instantaneous power off none-stop when instantaneous power off, automatic frequency drop
Command source keypad terminal communication, ,
Set value source digital, analog,multi-speed,communication
PID support main setting +PID
Op
era
tion
pa
ne
l
LED display Can display: output frequency,output voltage,output current , Bus voltage , display value 1 , display value 2, error, alarm
External keypad YES
En
viro
nm
en
t
Altitude derating use abouve 1000M, derating 10% per 1000MEnvironmenttemperature
-10 environment temperature around ℃~+40℃( 40℃~50℃please derating use)
Storeenviornment
indoor,away from direct sunlight,no dust,no corrosive gas, no inflammablegas, no oil mist, no vapour, no drip and no salinity, etc
Humidity 5%~95%RH, no condensation
Vibration
Storetemperature -40℃~+70℃
Protection function over current protection over voltage protection under voltage protection- 、 - 、 - 、
、 - 、 、overheating protection over load protection phase lose protection earth leakage,etc
<5.9 / (0.6g)M S
* reverse start command: setting value reversed, and give a
start command
* reverse command: setting value reversed.
* jog command: jog command. Priority is higher than start
command, lower than stop command.
stop command sourceP0.34
free stop command sourceP0.35
P0.36 reset command source
0
0
1
16
S14 S13 S12 S11 S10 S9 S8 S7
S3 S2 S1
S6
S5 S4 keypad invalid
15 14 13 12 11 10 9
7 6 5 4 3 2 1 0
communication
8
S
T
R
S/L2
R/L1
T/L3
U
V
W
M~
Power supply input P+ PB P-
Main circuit
11KW~22KW with P- terminal
single 240V input connect with
Braking resistor
R/L1 S/L2 and
digital output
Analog input analog output
pulse input pulse output
encoder inputModbus
STO(optional)
Profibus
standard
(optional)
Canbusbluetooth、GPRS
function card
relay output
2 1 Main circuit terminal description.
Terminal identification
P+、PB
P+、P-
R/L1、S/L2、T/L3
U、V、W
Function description
Connect three phase power supply, single phase power supplyconnect with R/L1, S/L2
Connect with external braking resistor
Two sets or more inverters use a common DC bus
(11KW~22KW has P terminal)
Grounding terminal Safety grounding
Main circuit power input terminal
Braking terminal
DC bus terminal
output terminl Connect with three phase motor
2 2 Founction card configuration table.
0:F11:F22:F1+F23:F1-F24:F1*F2/1005:maximum value(F1,F2)6:minimum vlue(F1,F2)7:average value(F1,F2)8:PID(F1,F2)
* principle interpretation: set 0 choose F1 channel setting value; set 1 choose F2 channel setting value; set 2 choose the sum of F1 and F2 channel setting value; set 3 choose the difference of F1 and F2 channel setting value; set 4 choose the product of F1 ans F2 channel setting value divide 100; set 5 choose larger value of F1 and F2; se 6 choose smaller value of F1 and F2; set 7 choose average value of F1 and F2; set 8 choose PID control(F1 is setting, F2 is feedback).
﹣99999.000~99999.000* principle interpretation:
limit setting value range.The unit of setting source is %, the
maximum setting value(P0.13) stands for 100%, take
mximum setting value as standard.
0.000s~3600.000s* principle interpretation:as figure, acceleration time refer to the time from 0HZ accelerate to P0.13 maximum setting value
Models Input voltageOutput current(A)
(Heavy/ light load)Adaptive motor(KW)
(Heavy/light load)
digitl input
Name
Base.No
Notice: different function card corresponding to different terminals. Except standard function card, can costomize any type of card. Reset parameters when using different function cards. An AC drive only can use one function card.
Warning: Do not use function card when power is on!
NO.3 Product Dimension
multi-speed 0P0.16
multi-speed 1P0.17
multi-speed 2P0.18
multi-speed 3P0.19
S 4 valid multi-speed
0 multi speed 0-
0 multi speed 1-
0 multi speed 2-
0 multi speed 3-
S 3
0
0
1
1
S 2
0
1
0
1
1 multi speed 4-
1 multi speed 5-
1 multi speed 6-
1 multi speed 7-
0
0
1
1
0
1
0
1
0.000%
0.000%
0.000%
0.000%
Digital input
Digital output
Relay output
Analog input
Analog output
Pulse input
Pulse output
Encoder input
Modbus
Profibus
Canbus
Bluetooth
GPRS
STO
Typical application
Physical characteristics
Function card H10001 H10002 H10003 H10004 H10005 H10007H10006 H10009H10008 H10012H10011H10010
4 3
1
1
11
8 2 2 3 2 2 4 4
2
3
44
1111111 1 1
1
2
1
1
1
1
1
1
1
1
1
111 1 1
1111 1 11 1 1
4
3
1
1
www.cononmotor.com.au
keypad
multi-speed
communication
AI1
AI2
H1 Series Inverter
USER MANUAL
NO.1 Product introduction
single phase motor (consult factory before using)
Power(kw)
H100S20007BX0 1 phase 240V 0.75 5.0 0.75
H100S20015BX0 1.5 7.0 1.5
H100T20022BX0 2.2 12.5 2.2
H100T20037BX0 3.7 15.2 3.7
H100T40007BX0 0.75 3.0 0.75
H100T40015BX0 1.5 4.5 1.5
H100T40022BX0 2.2 5.6 2.2
H100T40040BX0 4.0 10.5 4.0
H100T40055BX0 5.5 14 5.5
H100T40075BX0 7.5 19 7.5
H100T40110BX0 11 26 11
H100T40150BX0 15 33 15
H100T40185BX0 18.5 40 18.5
H100T40220BX0 22 46 22
F1
F2
F3
F1
F2
F3
F4
F5
1 phase 240V
1 phase 240V
1 phase 240V
3 phase 415V
3 phase 415V
3 phase 415V
3 phase 415V
3 phase 415V
3 phase 415V
3 phase 415V
3 phase 415V
3 phase 415V
3 phase 415V
170 124 67.3 158 585F1
194 133 85 184 597F2
237 147 112 223 6126F3
298 160 154 283 6168F4
355 177 183 338 6198F5
Official Distributor:Conon Motor28 Aristoc Rd, Glen Waverley. Vic. 3150 AustraliaPhone: +61 3 8555 2518Email: [email protected]
descriptionparameter no.
parameter name
PID dormancy time 5s
PID dormancy frequency
P1.63
setting value
0.01%
P2.92
P0.11
P0.44
P0.50
P0.51
P0.55
P0.56 PID dormancy time
keypad setting source
setting value
feedback value
AI1 high side setting
PID proportional gain
PID integral gain
0
10
2
16
10s
10%
5s
digital keypad(P2.92)setting
PID digital keypad set 10kg
PID analog AI1 feedback
according to field adjustment(turn up PID intensity greater)
according to field adjustment(turn down PID intensity greater)
PID set feedback range 16kg
PID wakeup deviation 20%
P0.12 setting relationship selection 8
AI1 high side set 16kg(0~10V corresponding to 0~16kg)
P0.54 PID range 16
PID dormancy frwquency set 5Hz(maximum default setting value 50Hz)
keyboard display PID feedback pressure
displayed value 1 source
20%P0.57
P0.58
P1.68
P1.69 displayed value 2 source
PID wakeup deviation
PID enter wakeup time 10s
1090
1091
PID wakeup time10s
PID deceleration to stop after dormancy set 0 if don t dormancy, ' P0.59 PID dormancy action 2
keyboard display PID setting pressure
P0.37
Function code
Function Description(setting range) Factory default
0:positive logic
1:negative logic
2:rising edge
3:falling edge
function: select external terminal trigger type
* principle interpretation: 0:positive logic, high level is valid status, low level is
invalid status;
1: negative logic, high level is invalid status, low level is
valid status;
2: rising edge, rising edge is valid;
3: falling edge, falling edge is valid. *two-line mode 1:
the mode is most commonly used two-line mode, enable and
direction combined, K1 and K2 control forward/reverse of
motor
S1(forward)
S2(reverse)
COM
K2
K1 operation command
K1 K2
OFF
OFF
ON
ON
OFF
ON
OFF
ON
stop
reverse
forward
stop
parameter no.
P0 30.
P0 31.
P0 37.
P0 38.
start command source is S1
reverse start command source is S2
S1 type is positive logic
S2 type is negative logic
setting vlue
3
4
0
0
description
* two-line mode 2:
enable and direction seperated, in this mode K1 is enable
terminal, direction is controlled by K2.
* three line mode 1:
this mode define SB2 as enable terminal, operation command
is generated by SB1 or SB3, control operation direction at the
same time.
inverter is running and SB2 is in closed state, terminal SB1
or SB3 generates a rising edge signal to control inverter
operation and direction; disconnection SB2 to stop inverter.
* three line mode 2:
this mode define SB2 as enable terminal, operation command
is generated by SB1, direction command is controlled by K.
inverter is running and SB2 is in closed state, terminal B1
generates a rising edge signal to control inverter operation,
K control operation direction; disconnection SB2 to stop
inverter.
S1(operation)
S2(forward/reverse)
COM
K2
K1 operation commandK1 K2
OFF
OFF
ON
ON
OFF
ON
OFF
ON
stop
stop
forward
reverse
parameter no.
P0 30.
P0 32.
P0 37.
P0 38.
start command source is S1
reverse command source is S2
S1 type is positive logic
S2 type is positive logic
setting value
3
4
0
0
description
S1(forward)
S2(enable)
COM
operationcommand
SB1
stop
forward
reverse
parameter no.
P0 30.P0 31.P0 34.P0 37.
start command source is S1
reverse start command source is S3
stop command source is S2
S1 type is rising edge
setting value
3
5
4
2
description
S3(reverse)SB3
SB2
SB1
SB2
0
1
1
SB3
P0 38.P0 39.
S2 type is negative logic
S3 type is rising edge
1
2
S1(operation)
S2(enable)
COM
operation commandSB1
stop
forward
reverse
parameter no.
P0 30.P0 32.P0 34.P0 37.
start command source is S1
reverse command source is S3
sop command source is S2
S1 terminal command type is rising edge
setting value
3
5
4
2
description
S3(forward/reverse)
SB2
SB1
SB2
0
1
1
K
P0 38.P0 39.
S2 terminal command type is negative logic
S3 terminal command type is positive logic
1
0
OFF
ON
S1 type
P0.38 S2 type
S3 typeP0.39
0
0
0
PID proportional gainP0.50
Function code Function Description(setting range) Factory default
﹣999999.000~999999.000
⊙function: analog input AI1 setting
*AI1 low side voltage(current): set the lowest voltage(current)
of input signal.
*AI1 high side voltage(current): set the highest voltage(current)
of input signal.
*AI1 low side setting: set corresponging value of low side
voltage(current).
*AI1 high side setting: set corresponding value of high side
voltage(current).
AI1 low side voltage(current)P0.41
AI1 high side voltage(current)P0.42
AI1 low side settingP0.43
AI1 high side settingP0.44
0:always 0 1:always 1 2:stopped 3:running
4:fault 5:alarm 6:reversing 64:STO status
100~9999:high level parameter
* principal interpretation:
terminal source setting value ≥100(address mode),
the address is selected parameter no., actual value is decided
by current value of selected parameter no..
terminal source function description as below:
Y1 terminal sourceP0.40
0:always 0 1:always 10V/20mA
2:output frequency 3:motor current
4:output voltage 5:motor torque
6:output power 7:setting frequency
100~9999:high leverl parameter
** principal interpretation:
AO1 signal source function description as below:
AO1 signal sourceP0.45
﹣999999.000~999999.000
* AO1 low side setting: set AO1 source minimum value.
* AO1 high side setting: set AO1 source maximum value.
* AO1 low side voltage(current): set the lowest voltage(current)
of output signal.
* AO1 high side voltage(current): set the highest voltage(current)
of output signal.
AO1 low side settingP0.46
AO1 high side settingP0.47
AO1 low side voltage(current)P0.48
AO1 high side voltage(current)P0.49
0.000%~10.000%Determine the adjustment intensity of the whole PID regulator,bigger proportional gain is, bigger adjustment intensity is.
PID integral gainP0.510.001S~9999.000SDetermine PID regulator to the integral speed adjustment ofthe diviation of PID feedback quantity and given quantity.smaller integral gain is, greater adjustment intensity is.
PID output upper limitP0.52
-1000.000~1000.000PID adjust the output maximum value, if higher than maximumvalue, then output PID output upper limit, relative to P0.11 maximum setting value percentage.
3
0.000V(mA)
10.000V(mA)
0.000%
100.000%
2
0.000
50.000
0.000V(mA)
10.000V(mA)
0.010%
10.000S
100.000%
0 P0.41 P10.71 P0.42 voltage(current) input
AI1low side voltage(current)
AI 1terminal input AI1high side voltage(current)
AI1 low side settingP0.43
AI1 terminal setting
AI1 high side setting P0.44
range setting
P3.040:voltage input1:current input
description
0 always 0 analog AO1 output always 0
1 analog AO1 output always 1
2 analog AO1 output is output frequency
3 analog AO1 output is motor current
setting value function
6 analog AO1 output is output power
7 analog AO1 output is setting frequency
100~9999
always 10V/20mA
output frequency
motor current
setting frequency
output power
high level parameter
4 analog AO1 output is output voltage
5 analog AO1 output is motor torquemotor torque
output voltage
0 P0.46 P0.45 P0.47 range setting
AO1low side setting
AO1signal source
AO1high side setting
P0.48AO1 low side voltage
(current)
P10.75AO1 terminal setting
P0.49AO1 high side voltage
(current)
voltage(current)output
P3.600:voltage output1:current output
0:start frequency operation1:speed start2:DC injection
* principle interpretation:0:no frequency output startup mode, meet to P0.61 startup timesetting, P0.62 start frequency start to startup operation.1:speed start, search rotating motor speed, smooth start without impact from search speed.2:DC injection, inverter startup by “DC injection before startup”mode.
Function code
Function Description(setting range) Factory default
startup function P0.60
startup time P0.610.000S~60000.000Sprinciple interpretation:when system startup,setting start function work within setting start time.
start frequency P0.62
0.000Hz~100.000Hzprinciple interpretation:start function finish, if setting frequencybigger than start frequency, system start from start frequency; if setting frequency smaller than start frequency, system startfrom setting frequency.
DC injection currentP0.63
0.000%~200.000%⊙function: set magnitude of DC injection current. (set P0.60=2 as DC injection)* principle interpretation: start mode is DC injection, need to set magnitude of DC braking current, 100% corresponding to inverter rated current.
stop functionP0.64
units:0:free stop;1:DC braking; tens:1:accurate stop* principle interpretation: during stop process, stop function starts work when output frequency smaller than stop frequency. accurate stop: stop at any speed motor rotation turns are same, realize consistent repeatability of stop position. To get the best efficiency, deceleration time not to trigger over pressure and over loss rate prevention function as long as possible.
stop frequency P0.65 0.000Hz~1000.000Hzinterpretation refer to 0.64
DC braking current P0.660.000%~150.000%set DC braking current.
DC braking timeP0.670.000 ~1000.000s sset DC braking time.
braking resistor mode P0.680:invalid
1:valid
function:braking resistor braking mode parameter set
control modeP0.700:VF1:vector control 1 function:select motor control algorithm
carrier frequency P0.71 2kHz~16kHz⊙function: set carrier frequency
motor power P0.720.000kW~100000.000kW⊙function: set motor parameters
motor voltageP0.730V~1000V⊙function: set motor parameters
motor frequency P0.74 1Hz~3000Hz⊙function: set motor parameters
motor currentP0.75 0.00A~1000.00A⊙function: set motor parameters
motor speedP0.7610rpm~65535rpm⊙function: set motor parameters
0Hz~3000Hz
* principle interpretation:set V/F curve under V/F control mode. When vector control 1 is adopted, set the corresponding frequency points of V/F curve to adjust control characteristics of the corresponding control points.
0V~10000V* principle interpretation:set V/F curve under V/F control mode. When vector control1 is adopted, set the corresponding voltage points of V/F curveto adjust control characteristics of the corresponding controlpoints.
VF curve F1 -P0.78
VF curve-F2P0.79
VF curve-F3P0.80
VF curve-F4P0.81
VF curve-V0P0.82
VF curve V1 -P0.83
VF curve-V2P0.84
VF curve V3 -P0.85
VF curve-V4P0.86
0
0.000S
0.000Hz
100 %.000
0
0.000Hz
100 %.000
0 s.000
1
1
kHz*
kW*
V*
Hz*
A*
RPM*
50Hz
V*
V*
V*
V*
0V
operating(P10.15 Bit5)
running(P10.15 Bit2)
stopping(P10.15 Bit1)
stop already
(P10.15 Bit6)P0.67
P0.64
P5.26start function
(P10.15 Bit3)
P0.65P0.62
P0.60
start
system control
t
t
F(Hz)
P0.78 P0.79 P0.80
P0.82
P0.83
P0.84
P0.85
P0.86
MAX
voltage
P0.81 frequency0
odd even check- P1.43
data bits P1.44 8~9f⊙ unction:Communication port configuration
stop bitsP1.45 0.0~2.0f⊙ unction:Communication port configuration
parameter decimal place mode P1.47
0~123units:0:remain decimal place,1:decimal place change to 2 places, 2:decimal place change to 1 place, 3:no decimal place;tens:0:remain decimal place,1:decimal place change to 1 place, 2:no decimal place;hundreds'digit:0:remain decimal place,1:no decimal place;* principle interpretation: parameter decimal place mode only work to communication, which change parameter value during communication transmission. * P1.47 units aim at parameters with 3 decimal places: 0:remain decimal place,1:decimal place change to 2 places, 2:decimal place change to 1, 3:no decimal place.* P1.47 tens aim to parameters with 2 decimal places; 0:remain decimal place,1:decimal place change to 1 place, 2:no decimal place.* P1.47 hundreds' digit aim to parameters with 1 place: 0:remain decimal place,1:no decimal place.
keyboard setting sourceP1.63
0:keyboard digital setting; 1:keyboard potentiometer setting; * principle interpretation:
( )select keyboard setting value source, digit setting P2.92 or keyboard potentiometer.
0
8Bits
1.0Bit
0
local address P1.410~247⊙function: set inverter local address
baud rateP1.42
0:2400bps 1:4800bps2:9600bps 3:19200bps4:38400bps 5~10:reserved⊙function: Communication port configuration
0:no check 1:even check
2:odd check⊙function: Communication port configuration
1
3
Function code Function Description(setting range) Factory default
50Hz
50Hz
50Hz
1
K
units:keyboard;tens: communication;hundreds' digit:S1;thousands' digit:S2;…
0
0
P2.03
P2.04
( ) UP command source
(DOWN)command source
history fault no.1P10.61 - 0
history fault no.2 - 0P10.62
history fault no.3P10.63 - 0
output frequency uponcurrent fault
- 0 0Hz.P11.10
output current uponcurrent fault
- 0.00AP11.11bus voltage upon currentfaultP11.12 - 0.0V
inverter temperature uponcurrent fault - 0℃P11.13
S terminal status upon current fault
P11.14 - 0
Y terminal status upon current fault
- 0P11.15
cumulative running time upon current fault - 0hP11.16
PID output lower limitP0.53
PID rangeP0.54
PID dormancy frequencyP0.55
PID enter dormancy timeP0.56
PID wakeup deviationP0.57
-1000.000~1000.000PID adjust the output minimum value, if lower than minimunvalue, then output PID output lower limit, relative to P0.11maximum setting value percentage.
0.000%
0.001~99999.000set according to actul feedback valu, if lower than feedback value, then PID invalid.
100.000
0.000~500.000set dormancy accurate frequency, relative to P0.11 maximumsetting value percentage.
0.000%
0.000~3600.000inverter reach enter dormancy time and meet to dormancy time, enter dormancy.
0.000s
0.000~100.000percentage based on setting value. 0.000%
PID enter wakeup timeP0.580.000~3600.000inverter reach wakeup deviation and meet to wakeup time,operation again.
0.000s
PID dormancy actionP0.59
0:no dormancy; 1:PID stop;2:decelerate to stop; 3:free stop;4:pause; 5:operate in lowest frequencyPID enter dormancy according to setting dormancy action.
0
T T1<T1
dormancy status
PID dormancy action select
P0.59
T1-PID enter dormancy timeP0.56
T2 inverter startup
T1-PID enter wakeup time
P0.58
PID output
PID dormancy frequency
P0.55
PID output
PIDwakeup accurate position
P0.57
time
time
inverter run
pressure sensor range:1.6MPa(1MPa=10kg)PIDcontrol parameter
NO.6 Fault code
description
0 always 0 Y1 terminal output always 0
1 Y1 terminal output always 1
2 in stopped status Y1 terminal output is 1
3 in running status Y1 terminal output is 1
setting value function
4 in fault status Y1 terminal output is 1
5 in alarm status Y1 terminal output is 1
100~9999
always 1
stopped
running
alarm
fault
high level parameter
6 in reversing status Y1 terminal output is 1
64 in STO status Y1 terminal output is 1 STO status
reversing
Fault Code Protection function Description
1 protection function inverter components fault or software fault
4 ground fault Abnormal resistance to ground, cause electric leakage
5 short circuit to ground short circuit to ground
6 output short circuit inverter cut off output when inverter output current is 250% larger than inverter rated current.
7 output over currentinverter cut off output when inverter output current is 200% larger than inverter
rated current.
8 DC bus over voltageinverter cut off output if main circuit DC voltage is higher than 400V(240V motortype) or 800V(415V motor type) when motor decelerates.
9 DC bus low voltage input voltage decrease, inverter cut off output if main circuit DC voltage too low.
10 inverter over heat inverter cut off output if cooling fin is over heat.
13 rectifier over heat rectifier module over heat.
14 U phase loss output U phase loss.
15 V phase loss output V phase loss.
16 W phase loss output W phase loss.
19 no motor connect motor lost connection during operation.
20 input phase loss power input phase loss.
21 inverter over load inverter cut off output when inverter output current exceed inverter rated level(150% 60S).
22 over torque motor over torque
24 motor over heat motor temperature is over heat.
25 motor over loadinverter cut off output when inverter output current exceed motor rated level(150% 60S).
26 current limit output current exceed setting limit threshold.
63 user fault user defined fault(P3.08)(UP) command from keyboard( )UP command sourceP2.03
P2.04(DOWN)commandsource
1
1 ( ) DOWN command from keyboard
PID enable
11 self-learning failure self-learning parameter wrong or motor abnormal.